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actually, the effort force would be decreasing, and the effort distance would be increasing!
Work.
Force times distance is called "Work" for the purposes of physics.
Yes.
That's the definition of "work" ... (force exerted) times (distance through which the force acts). If you push against the end of a lever with a force 'F' and move it through a distance 'D', then (F x D) is the work you put into the lever.
In physics, moment is a combination of a physical quantity, like force, and a distance. For example, a moment of force is the product of of a force and its distance from an axis, which causes rotation about the axis.
In a lever, the product of effort and effort arm is called Moment of effort and product of load and load arm is called Moment of load. In general case, as asked in the question, "The Product of force and lever-arm distance is called Moment of Force"the Moment of Force isn't correct its {Torque}
Work W. The dot product of Force and Distance through which the force acts is called Work . W=F.d
the resistance force multiplied by the effort force
actually, the effort force would be decreasing, and the effort distance would be increasing!
Work is the product of (force) x (distance).If, as you allege, the force increased but the work didn't change, thenthe distance must have decreased, by exactly the same factor as theincrease in the force, so that their product is not changed.
work (effort) equals load times distance
F = ma, W = Fd Or in words: force is mass multiplied by acceleration; work is force multiplied by distance.
work
Work.
force * distance = work
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